Behavior of the deeply inserted helices in diphtheria toxin T domain: helices 5, 8, and 9 interact strongly and promote pore formation, while helices 6/7 limit pore formation.

Diphtheria toxin T domain aids the membrane translocation of diphtheria toxin A chain. When the isolated T domain is deeply membrane-inserted, helices TH 8-9 form a transmembrane hairpin, while helices TH 5-7 form a deeply inserted nontransmembrane structure. Blocking deep insertion of TH 8-9 blocks deep insertion of TH 5-7 ( Zhao, G., and London, E. ( 2005) Biochemistry 44, 4488- 4498 ). We now examine the effects of blocking the deep insertion of TH 5 and TH 6/7. An A282R/V283R dual substitution in TH 5 prevented its deep insertion, significantly decreased the deep insertion of TH 9, and to a lesser degree that of TH 6/7. Blocking deep insertion of TH 6/7 with a L307R mutation had no effect on the deep insertion of TH 5, similar to its previously characterized lack of effect on the deep insertion of TH 8-9. An I364K mutation in TH 9 blocked TH 8-9 deep insertion and greatly reduced pore formation by the T domain, consistent with the role of TH 8-9 in pore formation. The A282R/V283R mutations also reduced the extent of pore formation, but to a lesser degree, suggesting either that TH 5 is part of the pore or that interactions with TH 5 affect the ability of TH 8-9 to form pores. The L307R mutation enhanced the extent of pore formation, suggesting that deeply inserted TH 6/7 may act as a "cork" that partly blocks the pore. Combined, these results indicate that TH 5, 8, and 9 combine to form a deeply inserted scaffold of more strongly associated helices.